Marceléia Rubert scite author profile

Cytogenetic analyses were performed on fishes of the genus Hypostomus (Hypostomus ancistroides (Ihering, 1911), Hypostomus strigaticeps (Regan, 1908), Hypostomus regani (Ihering, 1905), and Hypostomus paulinus (Ihering, 1905)) from the seven tributaries of the Paranapanema River Basin (Brazil) by means of different staining techniques (C-, Ag-, CMA3- and DAPI-banding) and fluorescence in situ hybridization (FISH) to detect 18S rDNA sites. All species showed different diploid numbers: 2n=68 (10m+26sm+32st-a) in Hypostomus ancistroides, 2n=72 (10m+16sm+46st-a) in Hypostomus strigaticeps, 2n=72 (10m+18sm+44st-a) in Hypostomus regani and 2n=76 (6m+16sm+54st-a) in Hypostomus paulinus. Ag-staining and FISH revealed various numbers and locations of NORs in the group. NORs were usually located terminally on the subtelocentric/acrocentric chromosomes: on the long arm in Hypostomus strigaticeps (2 to 4) and Hypostomus paulinus (2); and on the short arm in Hypostomus ancistroides (2 to 8) and Hypostomus regani (2 to 4). Conspicuous differences in heterochromatin distribution and composition were found among the species, terminally located in some st-a chromosomes in Hypostomus ancistroides, Hypostomus strigaticeps, and Hypostomus paulinus, and interstitially dispersed in most st-a chromosomes, in Hypostomus regani. The fluorochrome staining indicated that different classes of GC and/or AT-rich repetitive DNA evolved in this group. Our results indicate that chromosomal rearrangements and heterochromatin base-pair composition were significant events during the course of differentiation of this group. These features emerge as an excellent cytotaxonomic marker, providing a better understanding of the evolutionary mechanisms underlying the chromosomal diversity in Hypostomus species.

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Cytogenetic characterization of Hypostomus nigromaculatus (Siluriformes: Loricariidae)

Rubert

Zawadzki

Giuliano-Caetano

2008

Neotrop. ichthyol.

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Hypostomus is the most speciose genus in the family Loricariidae, with approximately 120 species. These fish show a wide morphological and color variation, which hinders the identification of species, mainly of widely distributed representatives. The aim of this study was to contribute to the current knowledge on cytogenetic features of Hypostomus nigromaculatus. Three specimens of H. nigromaculatus, collected in two tributaries of rio Tibagi, Paraná, and in Cachoeira de Emas, rio MogiGuaçu, São Paulo, the latter being the type locality of H. nigromaculatus, were studied. Chromosomal preparations were submitted to Giemsa staining, silver nitrate impregnation, C-banding and CMA 3 and DAPI fluorochromes staining. All samples presented 2n = 76, but the rio Mogi-Guaçu sample differed from those from tributaries of rio Tibagi in relation to karyotype formulae, distribution and composition of heterochromatin, and NOR location. The silver nitrate staining revealed the presence of multiple Ag-NORs for all samples, but with differences on the location on chromosomes. CMA 3 staining reveled bright signals equivalent to NOR-bearing chromosomal segments; such sites were characterized by negative, i.e. unstained, marks after DAPI staining. The pattern of heterochromatin distribution was distinctive among samples from rio Mogi-Guaçu and tributaries of rio Tibagi. The differences observed between the sample from rio Mogi-Guaçu and the ones from tributaries of rio Tibagi allow us to suggest that these samples are presently isolated. Further analyses are necessary to ascertain whether such isolation refers to distinct populations or characterizes true different species.O gênero Hypostomus é um dos mais especiosos na família Loricariidae, tendo aproximadamente 120 espécies. Apresenta uma ampla diversidade quanto ao padrão de coloração e morfologia, o que dificulta a identificação de determinadas espécies, principalmente aquelas com ampla distribuição geográfica. Para isso os dados obtidos neste trabalho contribuem para os estudos citogenéticos de Hypostomus nigromaculatus. Foram analisados três exemplares de H. nigromaculatus de afluentes do rio Tibagi, Paraná e Cachoeira de Emas, rio Mogi-Guaçu, São Paulo, sendo esta última, a localidade tipo de H. nigromaculatus. Os cromossomos foram submetidos à coloração convencional (Giemsa), impregnação por nitrato de prata, bandamento-C e coloração com os fluorocromos CMA 3 e DAPI. Todos os exemplares apresentaram 2n = 76, no entanto com diferença quanto às fórmulas cariotípicas, distribuição e composição da heterocromatina. O nitrato de prata detectou RONs múltiplas para as amostras, porém com diferenças quanto à localização nos cromossomos. A coloração com fluorocromo CMA 3 foi correspondente aos cromossomos Ag-RONs, na coloração com DAPI foram observadas bandas negativas, ou seja, não coradas. O padrão de distribuição da heterocromatina foi diferente para as amostras do rio Mogi-Guaçu e dos tributários do rio Tibagi. As diferenças observadas entre as amostras de rio Mogi-Guaçu e afluent...

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Sympatric occurrence of four cytotypes and one extra chromosome in Bryconamericus ecai (Characidae): 18S rDNA polymorphism and heterochromatin composition

et al. 2012

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In the present study, specimens of Bryconamericus ecai collected from the Forquetinha River/RS, were cytogenetically analyzed, disclosing a wide karyotypic diversity in this species. All individuals had 2n = 50, with different karyotypic formulae, resulting in four cytotypes and one B macrochromosome observed in cytotype III. Heterochromatin was distributed in the pericentromeric region of most chromosomes on the four cytotypes and also on a chromosome pair with interstitial markings in cytotype IV. Staining with CMA(3) and DAPI fluorochromes revealed a C-band region rich in AT base pairs in cytotypes I, II and III, and a pair with GC-rich heterochromatin in cytotypes II and III. Cytotype IV presented CMA(3) and DAPI positive heterochromatin. Silver nitrate impregnation, in situ hybridization, and fluorochrome staining showed a multiple system of AgNORs, 18S rDNA and CMA(3) sites in cytotypes I, III and IV, with both inter-and intraindividual variability in the number and location of these sites. Cytotype II had only one pair of NORs coincident with the 18S rDNA and CMA(3) sites, indicating a simple system. The chromosomal polymorphism observed among the specimens of B. ecai added to the literature data show that chromosomal rearrangements, especially pericentric inversions, play an important role in the karyotypic evolution of this group of fish. It can also be implied that more than one species of Bryconamericus is probably occurring, living in sympatry in the Forquetinha River/RS.

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Evolutionary trends in Hoplerythrinus unitaeniatus (Agassiz 1829) (Characiformes, Erythrinidae)

Rosa

Rubert

Martins‐Santos

et al. 2011

Rev Fish Biol Fisheries

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Conserved Cytogenetic Features in the Amazonian Arapaima, Arapaima gigas (Schinz 1822) from Jamari River, Rondônia–Brazil

Rosa¹,

Rubert²,

Caetano-Filho³

et al. 2009

TOBIOJ

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Specimens of Arapaima gigas from Jamari River (RO) were cytogenetically analyzed. A diploid number of 2n=56 chromosomes was found (28m-sm + 28st-a). Secondary constrictions were observed on the short arms of chromosome 3. Nucleolar Organizer Regions (NORs) were detected at the subterminal region on short arms of the third chromosomal pair by both silver nitrate staining and FISH with 45S rDNA probe, being equivalent to secondary constrictions. The ribosomal sites were also characterized by size heteromorphism and presence of CMA 3 + /DAPI -blocks. The constitutive heterochromatin was located at pericentromeric region of some chromosomes. After sequential Cbanding and base-specific fluorochromes staining, most of the heterochromatins proved to be neutral, i.e., with similar amounts of AT and GC bases. Nonetheless, some heterochromatic regions were marked by GC-specific fluorochromes in one chromosomal pair and by AT-specific fluorochrome staining on two pairs. The present data are in agreement with previous reports in populations from Araguaya River, indicating that conserved cytogenetic features are present in this important fish species.

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